US4758746A - Programmable logic array with added array of gates and added output routing flexibility - Google Patents

Programmable logic array with added array of gates and added output routing flexibility Download PDF

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Publication number
US4758746A
US4758746A US06/765,038 US76503885A US4758746A US 4758746 A US4758746 A US 4758746A US 76503885 A US76503885 A US 76503885A US 4758746 A US4758746 A US 4758746A
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United States
Prior art keywords
input
gates
output
electrically coupled
signals
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US06/765,038
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English (en)
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John Birkner
Hua T. Chua
Andrew K. L. Chan
Albert Chan
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Lattice Semiconductor Corp
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Monolithic Memories Inc
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Assigned to MONOLITHIC MEMORIES, INC., 2175 MISSION COLLEGE BOULEVARD, SANTA CLARA, CA. 95050, A CORP. OF CA. reassignment MONOLITHIC MEMORIES, INC., 2175 MISSION COLLEGE BOULEVARD, SANTA CLARA, CA. 95050, A CORP. OF CA. ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: BIRKNER, JOHN, CHAN, ALBERT, CHAN, ANDREW K.L., CHUA, HAU THYE
Priority to JP61075409A priority patent/JP2617447B2/ja
Priority to DE8686401085T priority patent/DE3687383T2/de
Priority to DE198686401085T priority patent/DE213971T1/de
Priority to EP86401085A priority patent/EP0213971B1/de
Assigned to ADVANCED MICRO DEVICES, INC. reassignment ADVANCED MICRO DEVICES, INC. MERGER, SEE DOCUMENT FOR DETAILS. Assignors: MONOLITHIC MEMORIES, INC.
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Assigned to LATTICE SEMICONDUCTOR CORPORATION reassignment LATTICE SEMICONDUCTOR CORPORATION MERGER (SEE DOCUMENT FOR DETAILS). Assignors: VANTIS CORPORATION
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03KPULSE TECHNIQUE
    • H03K19/00Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits
    • H03K19/02Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components
    • H03K19/173Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components using elementary logic circuits as components
    • H03K19/177Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components using elementary logic circuits as components arranged in matrix form
    • H03K19/17704Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components using elementary logic circuits as components arranged in matrix form the logic functions being realised by the interconnection of rows and columns
    • H03K19/17708Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components using elementary logic circuits as components arranged in matrix form the logic functions being realised by the interconnection of rows and columns using an AND matrix followed by an OR matrix, i.e. programmable logic arrays
    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03KPULSE TECHNIQUE
    • H03K19/00Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits
    • H03K19/02Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components
    • H03K19/173Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components using elementary logic circuits as components
    • H03K19/177Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components using elementary logic circuits as components arranged in matrix form
    • H03K19/17704Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components using elementary logic circuits as components arranged in matrix form the logic functions being realised by the interconnection of rows and columns
    • H03K19/17708Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components using elementary logic circuits as components arranged in matrix form the logic functions being realised by the interconnection of rows and columns using an AND matrix followed by an OR matrix, i.e. programmable logic arrays
    • H03K19/17712Logic circuits, i.e. having at least two inputs acting on one output; Inverting circuits using specified components using elementary logic circuits as components arranged in matrix form the logic functions being realised by the interconnection of rows and columns using an AND matrix followed by an OR matrix, i.e. programmable logic arrays one of the matrices at least being reprogrammable

Definitions

  • This invention relates to the field of digital integrated circuits and more specifically to the field of programmable logic array (PLA) integrated circuits.
  • PLA programmable logic array
  • FIG. 1 illustrates a simple PLA circuit 10. Included in circuit 10 are four input terminals I 0 through I 3 , each of which is coupled to the input lead of a buffer B0 through B3, respectively. Each buffer has an inverting output lead and a noninverting output lead. For example, buffer B0 has an output lead 12a which provides a signal ISO, which is the inverse of the signal present on terminal I 0 .
  • buffer B0 has an output lead 12b, which provides a signal IS0, which is equal to the signal present at terminal I 0 .
  • Each of the output signals from buffers B0 to B3 is presented as an input signal to an AND gate 14a.
  • AND gate 14a is an 8-input AND gate, and each of the output leads of buffers B0 to B3 is uniquely coupled to a single input lead of AND gate 14a.
  • FIG. 2a illustrates the eight input leads to AND gate 14a.
  • FIG. 2b illustrates AND gate 14a using the more conventional notation.
  • fifteen other AND gates 14b to 14p are also connected to the output leads of buffers B0 through B3 in the same manner as AND gate 14a.
  • each of AND gates 14a to 14p is coupled to all eight output leads of buffers B0 to B3.
  • a purchaser of a PLA circuit has the option of severing the connection between a given buffer output lead and a given AND gate 14a to 14p. In some prior art circuits, this is done by opening a fuse similar to the fuses employed in programmable read only memories. In other prior art circuits this is done during the manufacturing process of the circuit. Regardless of how such connections are severed, the user can cause each AND gate 14a through 14p to provide a unique output signal dependent on a particular set of input signals. The output signals from AND gates 14a through 14p are sometimes referred to as the "product terms".
  • the expression "product term” means the logical product resulting from a logical AND operation on a plurality of input signals, e.g., SIGNAL 1 ⁇ SIGNAL 2
  • the expression “sum term” means the logical sum, resulting from a logical OR operation performed on a plurality of input signals, e.g., SIGNAL 1 +SIGNAL 2 .
  • a first OR gate 16a includes four input leads coupled to the output leads of AND gates 14m, 14n, 14o and 14p. OR gate 16a generates an output signal on an output lead O 0 therefrom. Similarly, an OR gate 16b receives output signals from AND gates 14i, 14j, 14k, and 14l and generates an output signal on a lead O 1 therefrom.
  • programmable circuit 10 provides desired programmable Boolean functions which can be used in a variety of applications.
  • a programmable logic circuit which provides "desired programmable Boolean functions" is one which can be programmed by the system designer to provide any of a number of Boolean functions required in a given system design. This semicustom circuit provides an inexpensive replacement for a large number of logic circuits which would otherwise be required.
  • different generic types of PLA circuits include different numbers of input terminals and different numbers of output terminals.
  • PLA 19 illustrated in FIG. 3.
  • the array of OR gates 20a through 20d of PLA 19 are electrically programmably coupled to the output leads of AND gates 14a through 14p (i.e., the electrical connection between an AND gate and an OR gate can be severed). This is in contrast to PLA circuit 10 of FIG. 1 in which the sources of input signals for OR gates 16a through 16d are fixed and nonprogrammable.
  • PLA's including OR gates with programmable inputs have a number of disadvantages, e.g., they consume a large amount of surface area because of the need to provide additional circuitry to program the OR gate inputs.
  • the presence of a large number of input leads to an OR gate creates a large capacitance which slows the OR gate.
  • a programmable logic array in which a second programmable array of AND gates is provided between a first array of AND gates and a first array of OR gates.
  • Each AND gate within the first array of AND gates has an output lead programmably coupled to an input lead of a number of AND gates (in one embodiment, three AND gates) in the second array of AND gates.
  • the output leads from the second array of AND gates are each programmably coupled to a set of OR gates within the first array of OR gates.
  • the AND gates within the first array have a number of input leads, e.g., four, that can be programmably coupled to one of a number of input signal buffer output leads. Because the AND gates only have four input leads, they take up less space than AND gates having a larger number of input leads. In addition, in a CMOS implementation of the present invention, AND gates with a smaller number of input leads are faster than AND gates with a larger number of input leads.
  • the PLA of the present invention includes a first array of OR gates and a second array of OR gates.
  • the OR gates within the first array of OR gates include a set of input leads (in one embodiment, 3 input leads) each input lead being programmably coupled to an output lead from the second array of AND gates.
  • the output leads from the first array of OR gates are programmably electrically coupled to the input leads of a number of the OR gates within the second array of OR gates.
  • the OR gates within the second array of OR gates include a set of input leads (in one embodiment, 4 input leads). This provides the advantage of being able to generate an output signal which equals the logical sum of 12 different signals without providing 12-input lead OR gates.
  • a single OR gate from the first array can be programmably coupled to two OR gates from the second array, thus using the first array of OR gates more economically.
  • a bus including a plurality of lines is provided, each line being programmably electrically coupled to the output leads from the second array of OR gates, each line being programmably electrically coupled to each output pin of the PLA circuit.
  • FIG. 1 is a schematic diagram of a PLA constructed in accordance with the prior art.
  • FIG. 2a is a schematic diagram of an AND gate using the notation used in FIG. 1.
  • FIG. 2b is a schematic diagram of an AND gate illustrated in FIG. 2a using the more conventional notation.
  • FIG. 3 is a schematic diagram of a second PLA constructed in accordance with the prior art.
  • FIG. 4 illustrates the manner in which FIGS. 4a to 4e are to be arranged relative to one another.
  • FIG. 4a to 4f are a schematic diagram of a PLA constructed in accordance with the present invention.
  • FIGS. 5a and 5b are schematic diagrams illustrating the use of various gates within the PLA circuit of FIG. 4 to generate various signals.
  • a PLA circuit 100 constructed in accordance with the present invention includes several novel features which increase ease of design (i.e., ease of designing a larger system including PLA circuit 100 and determining the interconnections between the logic gates within PLA circuit 100 to provide desired logic functions), enhance flexibility, and permit a more economical use of the gates provided in PLA 100.
  • These features include two levels of programmable AND array logic and two levels of programmable OR array logic using product and sum term sharing.
  • Other features of this invention include a four-bit bus 110 which permits routing of output signals from the second programmable layer of OR gates to any output pin desired.
  • PLA circuit 100 uses low power CMOS technology and is programmed during the fabrication process of the array, as is done in read only memories (ROMS).
  • PLA circuit 100 is constructed using other technologies and can be programmed by the purchaser, e.g., by opening fuses as is done in programmable read only memories, or by storing charge on floating gates as is done in electrically programmable read only memory (EPROM) technology.
  • FIGS. 4d, 4e, and 4f there are a plurality of boxes (e.g., box 112) interspersed throughout the schematic diagram. These boxes symbolically indicate a programmable electrical connection.
  • a programmable electrical connection that is either connected or disconnected in response to end user requirements.
  • PLA circuit 100 includes a first array of AND gates 102-1 through 102-66, each AND gate having four input leads.
  • AND gates 102-1 through 102-66 each AND gate having four input leads.
  • AND gates 102-1 through 102-66 are limited to four input leads. This is because in a CMOS implementation AND gates with a small number of input leads are smaller and faster than AND gates with a large number of input leads.
  • Each input lead of AND gates 102-1 through 102-66 can be programmably electrically coupled to one of a set of lines L1 to L42. As can be seen in FIGS. 4a to 4c, the signals on some of lines L1 through L42 are generated in response to the signals present at a set of input pins IN 1 through IN 10 as well as the signals present on output pins O 1 through O 10 .
  • the customer can determine the interconnections in PLA circuit 100 so that the output signals at pins O 1 through O 10 as well as the input signals at pins IN 1 through IN 10 can be used by AND gates 102-1 through 102-66 to generate product terms.
  • the signal on line L41 is provided by an OR gate 106-1 and the signal on line L42 is provided by an OR gate 106-22. Lines L41 and L42 can be used to generate signals equal to the logical product of more than 12 signals.
  • the signals on line L1 through L42 are input signals to the logic array.
  • Each AND gate within AND gates 102-2 through 102-65 is programmably electrically coupled to an input lead of three of AND gates 104-1 through 104-66. (AND gates 102-1 and 102-66 are only programmably electrically coupled to two AND gates within AND gates 104-1 through 104-66). Thus, even though each AND gate within AND gates 102-1 through 102-66 is limited to four input signals, by providing a second group of AND gates 104-1 through 104-66, product terms including as many as 12 input signals can be generated.
  • product terms generated by a first AND gate can be shared by a plurality of AND gates, e.g., AND gates 104-6, 104-7 and 104-8.
  • AND gates 104-6, 104-7 and 104-8 This permits more economical use of AND gates because a single product term will not have to be generated twice. To understand why this is so, assume it is desired to produce the following signals:
  • Each AND gate within AND gates 104-1 through 104-66 is programmably electrically coupled to an OR gate within OR gates 106-1 through 106-22.
  • OR gates 106-3 through 106-20 are each programmably electrically coupled to two programmable OR gate logic circuits within OR gate logic circuits 108-1 through 108-10.
  • the output leads of OR gates 106-1 and 106-2 are only coupled to OR gate logic circuit 108-1, and OR gates 106-21 and 106-22 are only coupled to OR gate logic circuit 108-10.
  • FIG. 5b is a schematic diagram of gates within PLA 100 which can be programmably interconnected to provide output signals S108-1 and S108-2.
  • the term (X1 ⁇ X2 ⁇ X3)+(X4 ⁇ X5) is shared between signals S108-1 and S108-2, it is only necessary to generate this term once and programmably connect this signal to two OR gates (114-1 and 114-2). Because this term does not have to be generated twice, the circuitry that would otherwise be consumed generating this term a second time (e.g., OR gate 106-5 and all the AND gates connected to OR gate 106-5) can be used for other purposes or can be unused. (Gates left unused consume less power than gates being used.)
  • each of OR gate logic circuits 108-1 through 108-10 includes a 4-input OR gate such as OR gate 114-1, and two 2 input OR gates such as OR gates 116-1 and 118-1.
  • OR gates 116-1 and 118-1 are coupled to an exclusive OR gate 120-1.
  • Either OR gate 114-1 or exclusive OR gates 120-1 can be selected in response to system design requirements to generate an output term which is programmably coupled to output pin O 1 .
  • This output term can be presented directly to an inverter 122-1 to provide an inverted signal to output pin O 1 , the output term can be inverted by inverter 124-1 and then presented to inverter 122-1 to provide a noninverted signal to output pin O 1 , the output term can be stored in flip flop 126-1 and then passed on to inverter 122-1, or the output term can be inverted by inverter 124-1, stored in flip flop 126-1, and passed on to inverter 122-1, depending on system design requirements.
  • the output term generated by OR gate logic circuit 108-1 can be coupled to any of the four lines within bus 110 and coupled to any of output pins O 2 through O 10 .
  • bus 110 enables a system designer to select his pinout independently of the use of gates within PLA circuit 100.
  • bus 110 includes only four lines, in other embodiments bus 110 has a different number of lines.
  • PLA circuit 100 receives a signal CLK which is inverted and used to clock flip flops 126-1 through 126-10 via a line 128.
  • signal CLK can also be used to generate an input signal for AND gates 102-1 to 102-66 by programmably providing signal CLK to one of the lines within lines L1 through L42, e.g., lines L3 and L4 via a buffer 30-1. If that is done, and it is desired to use the output signal on pin O 1 to generate another one of the signals for lines L1 through L42, output pin O 1 can be programmably coupled to a buffer 30-2 which drives two of the lines within lines L1 through L42.
  • each output pin O 1 to O 10 is selectively programmably coupled to one of two buffers, each buffer driving two of lines L1 through L42, it is possible to use both signal CLK and any nine of the output signals at pins O 1 to O 10 as product term input signals.
  • Buffers 30-1 through 30-10 are also programmably coupled to receive the Q output signal of associated flip flops 126-1 through 126-10.
  • pin 31 (normally used to provide a programmable three state control signal for buffers 122-1 through 122-10) can also be used to drive two of the lines L1 through L42 via buffer 30-10. If that is to be the case, the signal present at output pin O 10 can be selectively coupled to buffer 30-9 and the output signal at pin O 9 can be coupled to buffer 30-8 and so on.
  • PLA circuit 100 includes a line 32 coupled to pin IN 9 .
  • Line 32 shown in FIGS. 4c and 4f, is coupled to input lead PL of flip flops 126-1 through 126-10 via a zener diode Z.
  • a predetermined zener breakdown voltage for example, 12 volts
  • a preload signal is presented to input lead PL of each of flip flops 126-1 to 126-10 which causes flip flops 126-1 through 126-10 to store the value present at pins O 1 through O 10 , respectively.
  • the flip flops 126-1 to 126-10 can be preset to known states.
  • Zener diode Z prevents flip flops 126-1 to 126-10 from storing data present at pins O 1 to O 10 in response to a high signal at pin IN 9 that is less than its zener breakdown voltage.
  • Pin IN 9 is also used to provide an input signal to buffer B 9 which responds to signals having conventional TTL voltage levels. Because of the presence of zener diode Z, a single pin can be used to provide an input signal to buffer B 9 that is distinguishable from a preload signal.
  • PLA circuit 110 includes a set of lines 134-1 through 134-10, each programmably coupled to the three state control line of buffers 122-1 through 122-10, respectively. Therefore, the signals on lines 134-1 through 134-10 are an alternative means for controlling buffers 122-1 to 122-10.
  • Line 134-1 is programmably electrically coupled to the output leads of AND gates 104-4 through 104-9.
  • Lines 134-2 through 134-10 are similarly coupled. Therefore, each of three state buffers 122-1 to 122-10 can be selectively controlled by an associated product term output signal.
  • the three state control lines for each of buffers 122-1 through 122-10 can also be programmably connected to ground or VCC to force buffers 122-1 to 122-10 into a high or low impedance mode in response to system design requirements.
  • bus 110 can be programmably coupled to the input lead of flip flops 126-1 to 126-10. Accordingly, all such changes come within the scope of the present invention.

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US06/765,038 1985-08-12 1985-08-12 Programmable logic array with added array of gates and added output routing flexibility Expired - Lifetime US4758746A (en)

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US06/765,038 US4758746A (en) 1985-08-12 1985-08-12 Programmable logic array with added array of gates and added output routing flexibility
JP61075409A JP2617447B2 (ja) 1985-08-12 1986-04-01 プログラム可能論理列
EP86401085A EP0213971B1 (de) 1985-08-12 1986-05-22 Programmierbare logische Anordnung mit zusätzlicher Gatteranordnung und zusätzlicher Flexibilität der Ausgangsumsteuerung
DE198686401085T DE213971T1 (de) 1985-08-12 1986-05-22 Programmierbare logische anordnung mit zusaetzlicher gatteranordnung und zusaetzlicher flexibilitaet der ausgangsumsteuerung.
DE8686401085T DE3687383T2 (de) 1985-08-12 1986-05-22 Programmierbare logische anordnung mit zusaetzlicher gatteranordnung und zusaetzlicher flexibilitaet der ausgangsumsteuerung.

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US06/765,038 US4758746A (en) 1985-08-12 1985-08-12 Programmable logic array with added array of gates and added output routing flexibility

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EP0213971B1 (de) 1992-12-30
EP0213971A2 (de) 1987-03-11
DE213971T1 (de) 1988-04-28
DE3687383D1 (de) 1993-02-11
DE3687383T2 (de) 1993-04-29
JP2617447B2 (ja) 1997-06-04
EP0213971A3 (en) 1988-12-14
JPS6239913A (ja) 1987-02-20

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